https://ogma.newcastle.edu.au/vital/access/ /manager/Index ${session.getAttribute("locale")} 5 Pathogenic ischemic stroke phenotypes in the NINDS-Stroke Genetics Network https://ogma.newcastle.edu.au/vital/access/ /manager/Repository/uon:19823 Tue 09 Jun 2020 09:48:40 AEST ]]> Association of Stroke Lesion Pattern and White Matter Hyperintensity Burden With Stroke Severity and Outcome https://ogma.newcastle.edu.au/vital/access/ /manager/Repository/uon:51452 2) were modeled within purpose-built Bayesian linear and logistic regression frameworks. Interaction effects between stroke lesions and a high vs low WMH burden were integrated via hierarchical model structures. Models were adjusted for age, age2, sex, total DWI lesion and WMH volumes, and comorbidities. Data were split into derivation and validation cohorts. Results: A total of 928 patients with AIS contributed to acute stroke severity analyses (age: 64.8 [14.5] years, 40% women) and 698 patients to long-term functional outcome analyses (age: 65.9 [14.7] years, 41% women). Stroke severity was mainly explained by lesions focused on bilateral subcortical and left hemispherically pronounced cortical regions across patients with both a high and low WMH burden. Lesions centered on left-hemispheric insular, opercular, and inferior frontal regions and lesions affecting right-hemispheric temporoparietal regions had more pronounced effects on stroke severity in case of high compared with low WMH burden. Unfavorable outcomes were predominantly explained by lesions in bilateral subcortical regions. In difference to the lesion location–specific WMH effects on stroke severity, higher WMH burden increased the odds of unfavorable outcomes independent of lesion location. Discussion: Higher WMH burden may be associated with an increased stroke severity in case of stroke lesions involving left-hemispheric insular, opercular, and inferior frontal regions (potentially linked to language functions) and right-hemispheric temporoparietal regions (potentially linked to attention). Our findings suggest that patients with specific constellations of WMH burden and lesion locations may have greater benefits from acute recanalization treatments. Future clinical studies are warranted to systematically assess this assumption and guide more tailored treatment decisions.]]> Tue 05 Sep 2023 18:01:19 AEST ]]> Recommendations from the international stroke genetics consortium, part 2: biological sample collection and storage https://ogma.newcastle.edu.au/vital/access/ /manager/Repository/uon:27063 2000 trait-associated genetic variants. Because most of these variants have individually small effects on disease risk, successful gene discovery efforts have required large sample sizes (involving thousands, tens, or hundreds of thousands of cases and controls) to achieve sufficient study power. Amassing such sample sizes has depended on international collaboration on a scale never seen before in human genetics or even in clinical research. Disease-specific consortia bringing together many individual sites and collaborators have now evolved for many major diseases. Each consortium has faced with ≥2 fundamental questions: how to assemble a study sample of sufficient size, homogeneity, and phenotypic quality and how to retain and analyze, sometimes repeatedly over several years, biological samples from enrolled subjects.]]> Thu 10 Sep 2020 18:07:31 AEST ]]> Loci associated with ischaemic stroke and its subtypes (SiGN): a genome-wide association study https://ogma.newcastle.edu.au/vital/access/ /manager/Repository/uon:30052 -8; joint OR 1·19, 1·12-1·26, p=1·30 × 10-9). Our results also supported robust associations with ischaemic stroke for four other loci that have been reported in previous studies, including PITX2 (first stage OR 1·39, 1·29-1·49, p=3·26 × 10-19; joint OR 1·37, 1·30-1·45, p=2·79 × 10-32) and ZFHX3 (first stage OR 1·19, 1·11-1·27, p=2·93 × 10-7; joint OR 1·17, 1·11-1·23, p=2·29 × 10-10) for cardioembolic stroke, and HDAC9 (first stage OR 1·29, 1·18-1·42, p=3·50 × 10-8; joint OR 1·24, 1·15-1·33, p=4·52 × 10-9) for large artery atherosclerosis stroke. The 12q24 locus near ALDH2, which has previously been associated with all ischaemic stroke but not with any specific subtype, exceeded genome-wide significance in the meta-analysis of small artery stroke (first stage OR 1·20, 1·12-1·28, p=6·82 × 10-8; joint OR 1·17, 1·11-1·23, p=2·92 × 10-9). Other loci associated with stroke in previous studies, including NINJ2, were not confirmed. Interpretation: Our results suggest that all ischaemic stroke-related loci previously implicated by GWAS are subtype specific. We identified a novel gene associated with large artery atherosclerosis stroke susceptibility.]]> Sat 24 Mar 2018 07:31:15 AEDT ]]> Brain volume: an important determinant of functional outcome after acute ischemic stroke https://ogma.newcastle.edu.au/vital/access/ /manager/Repository/uon:39002 3 ) was associated with age (β −0.3 [per 14.4 years]), male sex (β 1.0), and prior stroke (β −0.2). In the multivariable outcome model, brain volume was an independent predictor of modified Rankin Scale score (β −0.233), with reduced odds of worse long-term functional outcomes (odds ratio, 0.8; 95% CI, 0.7-0.9) in those with larger brain volumes. Conclusion: Larger brain volume quantified on clinical magnetic resonance imaging of patients with AIS at the time of stroke purports a protective mechanism. The role of brain volume as a prognostic, protective biomarker has the potential to forge new areas of research and advance current knowledge of the mechanisms of poststroke recovery.]]> Mon 29 Jan 2024 17:46:50 AEDT ]]>